AI-Powered Smart Low-Carbon Agriculture: UAV Monitoring & Precision Application System
This system integrates Unmanned Aerial Vehicles (UAV) and Artificial Intelligence (AI) to provide a comprehensive one-stop solution for modern agriculture, ranging from growth monitoring to precision application. By leveraging big data analytics for precise fertilization and pesticide spraying, the system not only boosts crop yields and significantly reduces occupational hazards but also incorporates a low-carbon management model to help the agricultural sector achieve Net-Zero and ESG sustainability goals.
1. AI Imaging & Growth Data Analysis
Full-Cycle Tracking: Utilizing regular drone aerial photography to collect comprehensive growth data from seedling to harvest (e.g., rice paddies).
Precision Diagnosis: Leveraging AI models to identify crop health and growth status, accurately pinpointing areas requiring fertilization or pest control, thus replacing time-consuming manual field inspections.
2. Smart UAV Spraying & Precision Application
High-Efficiency Operation: Utilizing electric-powered drones for liquid fertilizer or pesticide application. This offers significantly higher efficiency than traditional labor while ensuring precise dosage control to prevent resource waste.
Occupational Safety: Protects farmers from carrying heavy equipment (weighing 15–50 kg) and prevents direct exposure to chemical health threats, effectively reducing the risk of occupational hazards.
3. Low-Carbon Agriculture Smart Decision Platform
Yield Estimation & Recommendations: Farmers can access yield forecasts and tailored "top-dressing" (fertilization) recommendations through the platform, enabling data-driven scientific agricultural management.
Carbon Footprint Management: The system features carbon reduction calculation functions. By optimizing nitrogen fertilizer use (with an emission factor approx. 281 times that of CO2) and utilizing electric-powered machinery, it significantly lowers the carbon footprint of agricultural production.
4. Proven Performance & Field Impact
Enhanced Productivity: Field tests (conducted on rice) demonstrate that precision management can reduce fertilizer usage by 20% while increasing yields by approximately 300 kg per 0.1 hectare (approx. 4 fen).
Industrial Transformation: Assisting traditional rural communities in transitioning toward smart and digital systems, transforming agriculture into a high-value, low-carbon industry.
Full-Cycle Tracking: Utilizing regular drone aerial photography to collect comprehensive growth data from seedling to harvest (e.g., rice paddies).
Precision Diagnosis: Leveraging AI models to identify crop health and growth status, accurately pinpointing areas requiring fertilization or pest control, thus replacing time-consuming manual field inspections.
2. Smart UAV Spraying & Precision Application
High-Efficiency Operation: Utilizing electric-powered drones for liquid fertilizer or pesticide application. This offers significantly higher efficiency than traditional labor while ensuring precise dosage control to prevent resource waste.
Occupational Safety: Protects farmers from carrying heavy equipment (weighing 15–50 kg) and prevents direct exposure to chemical health threats, effectively reducing the risk of occupational hazards.
3. Low-Carbon Agriculture Smart Decision Platform
Yield Estimation & Recommendations: Farmers can access yield forecasts and tailored "top-dressing" (fertilization) recommendations through the platform, enabling data-driven scientific agricultural management.
Carbon Footprint Management: The system features carbon reduction calculation functions. By optimizing nitrogen fertilizer use (with an emission factor approx. 281 times that of CO2) and utilizing electric-powered machinery, it significantly lowers the carbon footprint of agricultural production.
4. Proven Performance & Field Impact
Enhanced Productivity: Field tests (conducted on rice) demonstrate that precision management can reduce fertilizer usage by 20% while increasing yields by approximately 300 kg per 0.1 hectare (approx. 4 fen).
Industrial Transformation: Assisting traditional rural communities in transitioning toward smart and digital systems, transforming agriculture into a high-value, low-carbon industry.
